Filling machine



Dec. 22, 1953 F. w. KRUEGER ET AL 2,663,481

FILLING MACHINE Filed Sept. 16, 1947 8 Sheets-Sheet l 0 IN on S com 01 0') v3 w ("MO (D m E "m (0 Q N q \D i 0 Q 0 b N 6) 0 \9 N o N 0 9m g 00 0 Q m \9 F m I o LIQOIQQ :q' 5

' n 0/ 090 g b e O O V q (I) Q Q 03 o 7' e D g 55 m N o H 63 9 INVENTORS FRANK mxnusasn F WILLIAM DE 540K A MA s/qwhw.

ATTORNEYS Dec. 22, 1953 F. w. KRUEGER ET AL 2,663,481

FILLING MACHINE Filed Sept. 16. 1947 V a Sheets-Sheet 5 0 \0 9 mvsn'rons O FRINK m KRUEGER WILL/AM DE BACK C /KJT ATTORNEYS Dec. 22, 1953 F. w. KRUEGER ET AL 2,663,481

FILLING MACHINE Filed Sept. 16, 1947 8 Sheets-Shet 5 FIE Ei 8 I FRANK nix/9050M WILL/AA! DE SACK ATTORNEYS Dec. 22, 1953 F. w. KRUEGER ET AL 2,663,481

FILLING MACHINE Filed Sept. 16, 1947 8 Sheets-Sheet 6 INVENTORS FRANK W. KRUEGER W/LLIAN 0E 84 6K ATTORNEYS Dec. 22, 1953 F. w. KRUEGER ETAL FILLING MACHINE 8 Sheets-Sheet '7 Filed Sept. 16, 1947 S mm 1- E m n VR 0! NK M w M K 4 mm. m u R Q: F W

BY (Paa /4 W.

ATTORNE YS Patenteol Dec, 22, N53

FILLING MACHINE Frank W. Krueger and William de Back, San Jose,

Calif., assignors to Food Machinery and Chemical Corporation, San Jose, Calif., a corporation oi Delaware Application September 16, 1947, Serial No. 774,214

13 Claims.

This invention relates to filling machines of the vacuum type, and is concerned more particularly with the provision of an improved filling valve structure for dispensing liquids into containers, such as cans or glass jars.

One object of the present invention is to provide a metering filling valve for supplying a predetermined quantity of liquid to a container.

Another object is to provide a high vacuum metering valve for supplying a quantity or" deaerated liquid to a container without aerating the liquid.

Another object is to provide a vacuum type filling mechanism for attaining high speed filling of containers with liquid under conditions compatible with the cleaerated nature of such liquid.

Another object is to provide a filling valve mechanism for receiving and isolating a pre; determined charge of liquid under a high vacuum and for depositing such charge of liquid into a pre-vacuumiaed container.

Another object is to provide apparatus for filling containe's under a high vacuum without bursting, panelling, or collapsing the containers.

Gther and further objects and advantages of the present invention will become apparent from the following description in connection with th drawings in which:

Fig. 1 is a plan view of a filling machine embodying the present invention, certain parts being broken away to disclose the drive mechanism of the machine.

Fig. 2 is a vertical section of Fig. 1 taken along line 2-Z thereof.

Fig. 3 is a horizontal section through the machine taken substantially along line 33 in Fig. t is a vertical section of one lift mechanism of the filling machine taken along line -i@ in Fig. 3.

Fig. 5 is a section similar to that of Fig. 4 showing portions thereof in a different position.

Fig. 6 is a section taken along line 6-43 in Fig. 3 showing an elevation of a filling valve unit embodying the present invention.

Fig. 7 is a plan view of the filling valve unit of Fig. 6.

Fig. 8 is a vertical section of the filling valve shown in Fig. taken along line 3-8 thereof.

Fig. 9 is a horizontal section of Fig. 8 taken along line 9-9 thereof.

Fig. 1c is a plan View of the seat portion of the filling valve shown in Figs. 6 to 9, inclusive.

Fig. 11 is a bottom view of the cool; portion of the filling valve shown in Figs. 6 to 9.

Fig. 12 is a fragmentary vertical section of the filling valve taken substantially along line l2l2 of Fig. 9.

Fig. 13 is a section similar to that of Fig. 8 taken along line 58-43 of Fig. 9.

Fig. 14 is a section similar to that of Fig. 13 with the valve cock disposed in a different position.

Fig. 15 is a section taken along line iii-45 in Fig. 9 with the valve cock disposed in the position shown in Fig. 14.

Fig. 16 is a section similar to those shown'in Figs. 13 and 14 with the valve cook disposed in still another position.

Figs. 17 to 22, inclusive, are diagrammatic horizontal sections illustrating the relationship of the valve cock to the valve seat, Figs. 17, 19, and 21 being taken substantially in the upper region oi the valve cock and seat, while Figs. 18, 20, and 22 are taken in the lower region of the same. in these illustrations, Figs. 1''! and 18 are complementary views showing the cock in its neutral position relative to the valve seat, Figs. 19 and 20 illustrate the cock disposed its first step away from neutral position, and Figs. 21 and 22 show the valve cock disposed in its second step away from neutral position.

The present invention (Fig. 2) is associated with a filling machine of conventional type comprising a frame i, a movable turret 2, a drive mechanism 3, a feed mechanism 5-, and a discharge mechanism 5.

The frame l comprises a base 8 provided with an upstanding annular wall 9 and a platform it formed integrally with one side or the base to provide a support for both the feed and the discharge mechanism l and 5, respectively. EX- tencling upwardly in the frame l are three equally spaced legs E2, E3, and it, seen also in Figs. 1 and 3. The legs 52 and it being similar to each other are supported by brackets it attached to the upstanding wall E} of the base, whereas the leg i l, which is shorter than the others, is supported by the platform it. These three legs are braced hetween their ends by an annular strap is secured to each of the legs i2 and by ma" chine screws El and in a like manner to a bracket 55 supported on the leg it (Fig. 2). Secured to the upper end of each leg 22, is, and i l, is a gear housing 98 enclosing a power transmission unit it forming a part of the above mentioned drive mechanism 3.

The base 8 is provided with a pedestal 2a in which a thrust bearing 25 is seated (Fig. 2). Supported on the bearing 25 is the lower end of a tubular shaft 22 having its upper portion ex- 3 tending through the housing l8 and supported for rotation by a bearing 24 provided in the lower wall of the housing.

The tubular shaft 22 is blocked between its ends to provide a lower and an upper conduit 25 and 26, respectively. The lower conduit 25 extends through the base 8 into an eblow 27. The lower end of shaft 22 is of conical formation and rests in a seat formed in the elbow 2? to provide a seal and to permit rotation therebetween. The elbow 2? is secured to the base and is connected to a pipe 28 communicating with a vacuum pump, not shown, for establishing a vacuum for reasons later to be made apparent. The upper conduit 26 of the shaft 22 extends into a liquid tight elbow 29 and is secured thereto by a suitable packing nut 3t so as to permit rotation of the shaft relative to the elbow. The elbow '23 is connected to a liquid supply pipe 3i associated with a source of supply for feeding liquid therefrom into the filling machine.

The shaft 22 is provided with a shoulder formation 32 in the region of the blocked portion thereof and has a distributing chamber 33 secured thereto for rotation therewith. The upper conduit 26 is provided with a port 34 exposed to the chamber 33 for supplying liquid to the same for distribution in a manner later to be explained.

The turret 2 is secured to the tubular shaft 22 for rotation therewith and carries a plurality of filling valves 35 and a plurality of can lifts 36 associated with respect to each other.

The turret 2 comprises an upper and a lower disc 3'! and 38, respectively, spaced from each other by a cylindrical web 3% to provide an air tight chamber 40 in conjunction therewith around the lower conduit 25 of the tubular shaft 22. The conduit 25 has several ports formed therein exposed to the chamber at (Fig. 2). One port il is provided for vacuumizing the chamber 40 and the other port 4| adjacent the floor of chamber till is provided for clearing the chamber of discharged matter, as will be later pointed out. Vacuumization oi the chamber it provides a reservoir of vacuum for use in connection with the filling of containers.

The lower disc 38 includes a depending annular bracket 42 provided with a lateral flange portion 43 disposed parallel to the upper outer extremity id of the disc 38 for supporting the can lifts 36 in annular arrangement adjacent the periphery of the turret 2.

Each lift 36, Figs. 4 and 5, comprises a pair of spaced guide rods 45 and 26 disposed in alignment radially with respect to the axis of the turret 2. The guide rod 45 is secured at its lower and upper ends to the portions 43 and id, respectively, while the guide rod 46 is secured to the lower flange portion 43 by a set screw i? and extends upwardly through a bore QB in the outer extremity M!- of the disc 38.

A sleeve 49 is slidably mounted on the guide rod 66 and has secured to its lower end a yoked casting 50 carrying a lateral stud 51 upon which a ball bearing roller 52 is mounted for rolling movement within a cam track 53. The cam track 53 is supported by the upstanding wall 9 of the base 8, concentrically with respect to the tubular shaft 22, i. e., the axis of rotation of the turret 2. The yoke portion of the casting 50 straddles the guide rod 45 to prevent turning of the sleeve 49 as the roller 52 travels along the cam track 53.

The sleeve 49 and guide rod 46 telescope relaside of the shaft 1| (Figs. 1 and 2).

tive to each other and the upper portion of the sleeve is guided for sliding movement in a bushing 54 provided in the bore 58. The upper end 55 of the sleeve 49 extends above the portion is of the disc 38 and has a cup shaped flange 55 threadedly secured thereto, the connection between the cup and sleeve being provided with suitable packing 51 to provide an air tight seal therebetween.

The cup shaped flange 56 supports a cylindrical shell 58 which is welded or soldered to the flange 56 so as to extend upwardly therefrom and the shell 58 is provided at its upper end with a conica'l rim 5B for reasons later to be made apparent. The guide rod 45 extends upwardly through the cylindrical shell 58 and has a piston structure 58 arranged to slide thereon and provided with a sealing ring M which engages the inner wall of the cylindrical shell 58.

Secured to the upper end of the piston he by machine screws 62 is a can table 53 which is threadedly connected to the reduced upper end 84 of a rod 95 having its lower end disposed for sliding movement in an axial bore as provided in the rod 56. Each can table 63 is normally disposed in its lowermost position, i. e., at the same level as the upper surface of the platform H3, see Fig. 2, to receive containers from the feed mechanism d, as illustrated in Figs. 1, 2, 3, and i.

Mounted on the up er wall of the housing i3 is a motor 62' (Figs. 1 and 2) having a multiple drive pulley 58 drivingly connected by belts til, to another pulley I'll keyed to one end of a drive shaft 'H extending from the housing Hi. The drive shaft ll (Fig. 1) is suitably supported for rotation within the housing i8 by spaced bosses l2 and 13 formed on a bracket Ti l secured to the lower wall of the housing, and a worm gear '15 is keyed to the shaft '5! for rotation therewith.

The bracket "M is provided with a pair of vertically aligned bearings 16 and 71 adjacent one side of the shaft ii and a pair of vertically aligned bearings 18 and 19 adjacent the other The bearings l5 and 17 support a stub shaft 89 havin a worm wheel 8i keyed thereto drivingly engaging the worm gear 15 on the drive shaft ll. Also keyed to the stub shaft 8!] is a spur gear 82 which meshes with a gear 83 keyed to the tubular shaft 22 for turning the latter and turret 2. The spur gear 32 also meshes with a gear at keyed to a shaft 85 supported parallel to the stub shaft Bi! by the bearings l8 and 79 of the bracket i i.

The gear as meshes with a gear 86 keyed to a shaft 81 providing an auxiliary drive for the feed and the discharge mechanism 4 and 5. This auxiliary drive shaft 8?, Fig. 2, is suitably supported for rotation by a bearing 83, in the lower wall of the housing is and a thrust bearing (not shown) provided in the platform It. The shaft 87 carries a star wheel 89 (Fig. 3) adjacent the platform id to receive containers fed onto the latter from an inlet chute 98 for moving the containers along an arcuate path adjacent a guide rail 9! supported by the short leg i l of the frame I. The star wheel 89 transfers the containers from the platform id, individually, onto successive can tables 63, as the latter move one after another into registration with the containers nested between the points of the star wheel. The end of the guide rail 9| is so located as to release each container as it is properly positioned on a can table 63 so that the latter removes the container from the star Wheel 89.

After each can table 63 has received a container, the roller 52 of the lift mechanism 36 associated therewith climbs an aclivity in the cam track 53. The sleeve is associated with the roller 52 rises therewith elevating the cylindrical shell relative to the can table and container until the piston structure 68 therebelow is engaged by a pedestal 92 within the shell 58.

The pedestal $2 (Figs. 4 and 5) comprises a ring encircling the guide rod at and having pins B l extendin downwardly into boss formations in the cup shaped flange 53. Each pin il i is encircled by a compression spring at seated in the respective boss formation 95 and bearing against the underside of the ring 53 for maintaining it in spaced relation with respect to the rloor of the flange 56.

The springs t5 are of sufficient strength to maintain the ring 93 spaced from the flange to when the ring supports the piston structure, can table, and container and, consequently, the container will extend slightly above the conical rim 59 of the shell. The shell and container, therefore, rise in unison until the open upper rim of the container engages the filling valve unit thereabove, whereupon, the springs t yield allowing the cup shaped flange and cylindrical shell. to rise with respect to the container. The

shell rises until the conical upper rim 59 thereof engages the filling valve unit and the container thereby completely enclosed within ret ll provided by the cup shaped flange, drical shell, and the filling valve unit. In this condition, the containers are conveyed through a predetermined path of travel by the turret as it rotates within the frame 8.

At the opposite end of the path of travel of the containers, the roller 52 on the yoke casting of the lift til descends a declivity in the cam track thereby lowering the cylindrical shell A pin extending laterally from the lower end or" the rod E5 is engaged by the yoke casting thereby positively lowering the can table it to the level the platform Iii. The containers carried by the can tables $3 then successively enter the mouth so or" the discharge mechanism 5.

The discharge mechanism 5 is of a con tional construction comprising spaced twin screws id?) suitably supported above the platform is to receive the containers from the turret 2. i'hese screws liiil are drivingly associated with a transmission within a housing it! having a power take-off unit m2 operatively connected to the auxiliary drive shaft 8'? (Figs. 2 and 3) in a well known manner. The twin screws are rotated upwardly and outwardly with respect to each other and have opposing convolutions calculated to accelerate the transfer of a container from a can table 33 onto the platform is while the can table continues moving in its circuitous path away from the container. The screws itii subsequently discharge the containers one after another into an outlet chute M33.

The filing valves 35 (Figs. 6, and 8) are supported adjacent the periphery of the upper disc 3? of the turret 2 in vertical alignment with the respective lifts 36 associated therewith.

Each filling valve 35 (Figs. 6 to 9) comprises a body lilii having a flange ltd resting on the disc and a reduced circular portion 5 t? fitting into an opening Wt provided in the disc 37. The flange tilt is secured to the disc El by colts itlfi extending through bosses formed on the flange act. ihe reduced portion Hill of the body it?) has an axially aligned nipple Hi] extending downwardly therefrom to receive a cap 4! I below the disc 32. Each cap is secured to the reduced portion of the body by countersunk head screws H2 and has a. skirting or annular wall 5 it provided with an inwardly extending annular lip He. lhe inner wall of the cap HI is lined with a rubber sealing ring H5 having a depending periphery HG reta ned within the cap III by the annular lip I it and having a central portion Hl surrounding a reduced end H8 or" the nipple H8. lhe central portion ill of the ring H5 is secured to the nipple Hit by the cap portion 6 it of a cylindrical plug lilo threadedly connected to a tapped portion l2! of a central bore 522 provided in the body 865.

Above the disc 31 the body it? has a central portion E23 providing a chamber 324 in alignment with the central bore E22 of the body. Adjacent the central portion 523 (Fig. 10), the body m5 is provided with a frusto conical seat formation E25 which communicates with the chamber I24. Formed on the body Hi5 integrally with the central portion !23, but above the chamber EM (Figs. 8 and 9) is a neck portion 926 provided with a vacuum port E27 which is in communication with the frusto conical seat iZE. A tube lit having one of its ends threaded into the port I27 has its opposite end connected to an elbow H29 secured to the disc 31 in registration with a hole 5353 provided in the disc, above and in cormnunication with the vacuum chamber iii (Figs. 6 and '7).

Formed on the body M35 is a boss formation 5 3! which is slightly counterclockwise of the neck portion 26, see Figs. 1c, 12, 1'7, 19, and 21. The boss [3| is provided with a bore 32 extending through to the seat 125 and is internally threaded to receive one end of a by-pass tube 533 which extends through an opening ltd in the outer portion of the disc ti. The opposite end of the by-pass tube its is threadedly connected by a nipple to a boss I35 formed on the skirting MS of the sealing cap ill. The boss IE5 is provided with a bore I35 communicating with the tube E33 and extending through the depending periphery H6 or the sealing ring its so as to communicate with the interior of the cap H5.

120 degrees clockwise of the central portion E23 (Figs. 10, 14, 18, 20, and 22) the body tilt is provided with a boss formation l3'i having a bore I38 providing a liquid inlet exposed to an arcuate recess I39 in the seat 225. The boss it? is pro vided with an internal thread for receiving the threaded end of a liquid supply tube Mil having its opposite end threadedly connected to the ad jacent side wall (Figs. 2 and 3) Or" the distributing chamber 33 and in communication with a port it! formed in the side wall of the chamber 33.

Disposed in the frusto conical seat I25 is a cock M2 having its upper larger end extending abovethe body I and carrying a star wheel 543 in spaced relation with respect to the upper surface of the body E85. The star wheel it? is secured to the cock M2 by bolts EM and is properly indexed with respect to the cock by an indexing pin Hi4 (Figs. 9, 15, and 16) for reasons hereinafter to be made apparent. The star wheel has a central bore Hi5 through which extends a nipple M6 having its threaded lower end securedto a threaded portion ll of a bore [at in the cook. The upper end of the nipple M6 is formed integrally with a circular plate M9 provided with a recessed upper surface E56 in which the lower end of a cylindrical shell it! is disposed. A piston I52 (Fig. 8) is arranged within the shell I5! for sliding movement longitudinally thereof and the upper end ojthe shell ;is .closedbyatcap 53. The cap 153 is provided with a depending flange I54, which is pressed down into .theshell and the cap I53 is drawn toward the plate M9 by'long bolts 155 to provide .a metering chamb r L56 within the .shell I51. The cap 153 is provided with a tapped bore I57 into which an adjusting screw 158 is threaded so that theshank of the screw extends into the chamber 156 to limit movement of the piston I52 toward thecap I53 'for reasons late to be made apparent. The screw 158 carries a threaded lock nut 1.59 above the cap 153 and'this lock nut is adapted-to bear against the cap to lock the screw lfitineany desired position of adjustment. The'cap 'lfit-is also provided with a hole It!) (Figs. 7 .and 8) ;for venting the upper region of thezmeteringchamher to permit up or down movementaof thegpiston 152 due to any difierential in pressure between the upper region of the chamber .155 and the region thereof below the piston including the passage in the nipple lat and the *central bore I48 in the cock.

From the foregoing, it is apparent that the cock 142, star wheel M3, and =metering .chamber 156 constitute a unit lfil whichissupportedupon the-body W forrotation relative thereto.

Thecock Hi2 (Fig. 1-1) is provided with'a plw rality of ports, the main ones of which are :disposed 120 degrees from each otheraround .the central bore H53 in the cock. For explanatory purposes, the 120 degree location of each main port is designated in the drawings by a radially disposed reference line R 13?, and R ,:respective- 1y, see Figs. 11, and 17 to 22. A diagonal bore 162 provides the port at reference Elinelt .and this bore Hi2 is adapted to communicate the central bore d8 'of thecock with the -.venuum -port 127 (Figs-8 and 13) The port on reference zline R is provided by a recess I63 adapted to simultaneously register with both -.the vacuum ,port I27 and the central chamber 1240f .theboo'y zit?) (Fig. 14) The port located along referenceline R is provided by a large bore 1% extending diagonally upward into communication with cen tral bore adapted to register with either the liquid inlet port I33 (Fig. .15) orthe central chamber hid in the body 155 of the filling valve (Fig. 16).

The cock N22 is also provided with venting bores I65 and P66 (Fig. 12). The bore 2465 extends from the top to the hottom-oftheicockand has a lateral bore E61 communicating with .atmosphere by way of the space between-z-the upper surface of the body let-and the star .wheel M3 for venting the space below the lower end-of the cook 52 at the base of the :seat formation 5:25. The other venting bore- 1 6% 'extends:fr'om,-the top of the cock to a horizontal groove Ate-extending circumferentially or" the cock to 'a point beneath the diagonal bore 62 on reference .line B (Figs. .12-and 13). The horizontalgroovel-tBissadapted toregister simultaneously with thecentral-nhamber I2 and the bore :32 leading to the byeifiass tube 533. The venting bore lfit-tis also provided with a lateral bore lt9 communicating-with .-at-- mosphere between the body 195 and .the :star wheel 33 for venting the -.horizontal groove ifiii. Consequently, the chamber 12s .and the bypass tube I33 are simultaneously vented when .the reference line B registers with the chamber @126 ofthe body I65.

The cool; 32 is provided, further, with pen a-rcuategroove H9 (-Fig. .14 extending-circumferentially, clockwise (Fig. 11-) from the recess M8 of 'the cock. This .hore stli l is H53 pon zreference rline 2R and adapted .150 communicate .w.ith the bore 132 leading to the bypass time L33 when the recess W3 registers with the-central chamber 1:2 of the body 105.

:Secured .to theupper surface .of .thedisctl ad- .jacent 21011 filling valve 35 is .a trunnion carriage Ill (Figs. 6 and 7), pivotally supporting a yoke H2. The payoke I72 comprises a pair of arms E13 each provided with a bossed end H6 through :each of which :a :headed pin ['65 eeX tends. The pins 175 also :extend through the trunnion carriage lit! :and cotter keys lr'll care provided for holding :the yoke arms H3 on the pins. The arms i513 are .united adjacent the circular tplate Hi9 nbyacross arm HE; overwhich is hooked one end of a tensionsspring ilef having its opposite end suitably anchoreditoa crossbar lSii supported 101113119 :trnnnion carriage 15H The-free endnf each arm H3 is arcuated to conform to the shape of the "periphery :of 'Jthe circular .plate 3M9 (Fig. .7.) and :each :arm carries a roller Elli at its extreme end. The rollers 18! are :disposedto bearzdown upon the upper. surface of the plate 545 at diametrically opposite .sides of the same'tc maintain the unit it! in :place upon the body and to :hold .and press the cook !42 into sealing contact withthe seatxformation 525 in the body ltd. The'plate M8 is pro vided, adjacent its periphery, with six equally spaced depressions iii-2 in which the rollers 18! are adapted to seat "topreventoverriding of the unit it! when it is intermittently :advanced in a manner w..ich'will now-be explained.

'Each star wheel i 23 (Fig.9) istprovided with six equally spaced radially disposed teeth '183 indexed by the pin 5E4 with-respect to the ports provided. .the cockalong lines R R and R The teeth E83 are adapted to successively engage rack pins i (Fig. '3) when the turret 2 is rotated in the manner as above explained. The

rack pins [E l arearranged in pairs on separate brackets 35 85 i85 suitably secured to the annular strap It at predeterinined'positions adjacent the perimeter of the turret. The first and third brackets 1:25 and I35 respectively, are substantially diametrically opposite each other with respect to the turret 2 and the second bracket 185 is located substantially midwaybetween-the first and'third brackets.

The first bracket is located a short distance from the feed mechanism @so'tha-t its rack pins [fill will be engagedby two teeth 1 of-the star wheel shortly after --elevation of a container into contact with thesealing ring H5 of the filling valve. The two rack pins 'lfisl of the first bracket i are "engaged, successively, by two teeth 2'83 of the star-wheel 153 to advance the 'star wheel and the unit l t-l 'a circumferential distance equal tc one-third of a complete revolution or degrees. The unit ti is again advanced 129 degrees as two teeth of the star wheell i3 engage-theraclrpins ltd of the second bracket I85 Just prior to the arrival of the container and filling valve opposite the mouth 85 of the dischargemechanism -'5, the unit iti is again advanced 120 degrees due "to the engagement of two of theteethof the 'starwheel the rack pins 18 of the third bracket From the foregoing it is apparent that the unit I6! is intermittentlyadvanced-in steps of 120 degrees each as :the fillingvalve'35 travels'from thefeed to .the discharge mechanism toxthereby turn .the -.unit 3 6.0 degrees, :or one-completerevolution during .each fillin peration.

In operation, the filling machine is constantly supplied with liquid under pressure via the supply pipe 3!, a vacuum of approximately 28 inches of mercury is established in the vacuum chamber it, and the turret, feed, and discharge mechanisms are driven in timed relation by the drive mechanism 3. The containers enter the machine open end up by way the feed chute 9t and iii the following description, for purposes of clarity, the progress of a single container C through the filling machine is given.

The star wheel 89 of the feed mechanism a receives the container C and advances it into registration with the can table of one of the lifts 36 which removes the container from the star wheel and carries it along the circuitous path provided by the turret 2.

Each filling valve 35 is normally in closed or non-filling condition (Figs. 12, 13, 1'2, and 18) as the can table associated therewith receives a container from the star wheel 35-3. It should be understood that the feed mechanism is provided with a conventional "no-can no-fill device I95 (Fig. 8) whereby to forestall operation of the filling valve when there is no container on the can table associated therewith. In this connection, it will be noted in Figs. 8 and 9 that the first two teeth 583 on the star wheel M3 of each filling unit It! are in a higher plane than the remaining teeth thereof. Moreover, the rack pins 8 2 of the first bracket idfi are normally held in an inactive position and are adapted to engage the teeth 583 only when the presence or a container is detected on the can table by the device 5%. Ihe rack pins ltd of the second and third brackets !B5 585 are adapted to be engaged only by teeth 933 which are disposed in a plane below the teeth use and, consequently, operation of the filling unit 46! is entirely eliminated whenever the lift associated therewith is without a container.

During movement of the container C from the feed mechanism toward the first bracket I85 ainer is elevated into sealing engagea shell 53 is also elevated and brought into sealing engagement with the depending eriphery N8 of the ring H5. The unit it! is way of the horizontal groove 18S and the Icy-pass tube I33, both of Hi9. Simultaneously therewith central bore Hit of the cook it?! is vacuumie to registration of the diagonal bore 552 vacuum port 12?.

.imospheric pressure through the hole itil in 55-3, it follows that the piston is caused on to its lowermost position (Fig. 8) by reaor the pressure differential between the upof the chamber 955 and the central e in the cock.

s the filling valve 55 associated with the con tainer C passes the first bracket i85 the rack pins 53% are en aged by the teeth I83 causing turning of the unit It! relative to the valve body Hi5, 128 from neutral position, to thereby dispose reference line B in registration with the central chamber lZ in the body 505 (Figs. 14, 15, 19, and 20). Consequently, the large bore the sealing ring H5 and the conical 11'. lent-val position, as shown in 12, 13, 17,

1.3, during the foregoing movement of the C t with the pressure within the vented to atmosphere through the 664 at the bottom of the cock Hi2 registers with the liquid supply port 138 (Figs. 15 and 20) and liquid from the supply tube MB is promptly transferred into the vacuumized bore M8 preferably under approximately 10 lbs. pressure. The pressure of the liquid entering below the piston 552 being in excess of the atmospheric pressure prevailing above the same causes the piston to rise until it is stopped by engagement with the adjusting screw 558. The screw [58 has been set, previously, so as to permit only a predetermined, desired, and accurately measured quantity of liquid to enter the metering chamber E the bores I 6 tl l8 associated therewith. Simultaneously with the ingress of liquid into the metering chamber and bore I48 of'the valve as stated above, the container 0 and jacket 9? are vacuurnized clue to registraof the recess its and arcuate groove no in the cock with the central chamber 52%, vacuum port 9217, and the by-pass tube 533 in the body 5E5, see Figs. 14 and 19.

It should here be noted that vacuumization of the container and jacket strengthens the seal between the open upper end of the container C, the conical rim 59 of the shell 55, and the sealing rin' H5 to thereby maintain the container and jacket vacuumized so far as is practicably possible. Consequently, when, in passing the second bracket i35 the unit 155 is advanced 120 further from neutral position, i. e., into its secondary position in which the reference line R registers with the central chamber E24 (Figs. 16, 21, and 22) the prevacuurnized container registers with the bores !MM8 associated with the metering chamber I55 Due to the atmospheric pressure prevailing above the piston E52 and the vacuumized condition of the container,

the piston is forced down to its lowermost position and the liquid therebelou is promptly transferred into the container C filling the same to the desired level.

As the particular filling valve passes the third bracket I35 the unit I6! is advanced another 120 step to register the reference line R with the central chamber 524 in the body I65. In other words, the unit E 5i is now 360 from starting position and, therefore, again in the neutral position illustrated in Figs. 12, 13, 17, and 18. Consequently, the central chamber I24 is again vented or in communication with atmospheric pressure by way of the arcuate groove ill! and ports I85, 569, while the jacket 9'! is likewise vented by way of the groove Eli via the by-pass tuhe I33.

From the foregoing, it is apparent that the pressure in the container C is always maintained the same as, or equalized with, the pressure in the jacket 91 and that both the container and jacket are simultaneously brought to atmospheric pressure. In this manner, paneling or the collapse of the container C is prevented and .the container and conical rim 59 of the shell 58 are released from sealing contact with the sealing ring l 95 to permit descent of the shell 58 when the roller 52 descends the declivity in the cam track 53.

As the lift mechanism 36 approaches its lowermost position, the yoked casting engages the pins 93 projecting from the rod to urge the same and the can table 53 downward until the can table is brought to the level of the platform id. The filled container C is then transferred into the mouth 99 01 the discharge mechanism, across the platform it and out onto the chute for corn; ance to aclosing machine, not

shown.

In conn ction v "th the foregoing operation it i the filling df close-o. is provided with twenty intended that the filling machine eed suitable for handling per minute. It, there that during'one minute of oper tion eac unit will handle an in 'natel taniers and that each cycle during which one container is handled, is of approximately four seconds duration. Moreover, since. the c qtainer, itself, in comn'iu ation with a valve 35 only while he veen the first and third -ld5 and, since these brackets substantially diametrically oppor: the turret, the container is actually in sealed relation with the valve only during one half he time it takes the valve to travel through one cycle of operation, or 3 1213313 two seconds.

e first second of' the foregoing period that the metering chamber {56 receivesa charge of liquid and during the next second that the charge of liquid is transferred from the metering chamber into the container. Since the metering chamber and container are each vacuumized prior to receiving the charge of liquid, it is obvious that the transfer of the liquid into either of them is accomplished promptly, without the development of air pockets and, accordingly, without foaming of the liquid or aeration thereof. Consequently, the container, when released from beneath the filling valve, is filled to the desired level with a substantially calm nonfoaming liquid and is; therefore, ready for immediate covering.

Should it be desired to increase the" speed of the filling machine so as tohandle a greater number of" containers per minute, the liquid should be fed into the supply pipe 3| at a proportionatelygreater-pressure so as to? assure complete filling of the metering chamber Q56 during communication thereof with the supply'tube M0. The. transfer of the liquid into the metering chamber is thus quickenedto correspond with the split second operation of the fillingvalve so as to assure that a full measured charge of liquid will be transferred into the container during the balance of the filling operation.

One advantage. of the, foregoing. construction of the filling valve resides in the fact that the filling unit i5! is supported in an erectposition above the turret solely by reason of the manner in which the cock H52. fits into the frusto conical seat formation 125 in the body 105. Also in that the unit it! is held down upon the body I05 only by the spring urged yoke H2 and is, therefore, easily removed for cleaning or repairs. Moreover, the cock andbody. are preferably made from a nickel alloy so as to Withstand the. effects of acids, especially the acids from. the juices of citrus fruits. Therefore, the abutting faces. of the cock and seat. are not likely tobecome corroded or otherwise pitted, and, consequently,,will slide smoothly with respect to each other Without the need of a lubricant.

Due to the angle of the cone face of both the cock 22 and the seat formation I25, the two are maintained in proper sealing relation with respect to each other by the spring urged yoke H2. Although exposure of the cock. I62 to the vacuum port I27. might normally cause thecockto bind relative to the conical seat formation I25, since the base of'the seat-is: in constant communication with atmospheric pressure. by way of the venting bores I65, I57, this binding effect of the vacuum upon the cock is minimized. It is, therefore, apparent that the valve structure of' the present invention is such as to have nongalling; nonlocking action during operation.

Having thus described the construction and operation of the filling machine of the present invention, it will be apparent to those skilled in the art thatthe'foregoing is illustrativev of the preferred embodiment of our invention and is susceptible of various modifications. and alterations. We, therefore, desire to avail ourselves of-all' modifications and alterations coming with? inthe purview of theappended claims;

What we claim as new and desire tel-protect by Letters Patent is:

1. A fillingmachine comprising a source of vacuum, a source of liquid, a filling head for sealingl'y engaging a container, said head having a plurality of passages and chambers including a metering chamber and a chamber in flow communication with the container, a valve entirely within said filling head, and means for operating said" valve successivcl'y through a plurality of positions for interconnecting said chambersand said sources of'liquid and vacuum by means of said passages, said valve having a first position communicating said metering chamber wi h said source of vacuum, a second position communieating the container with said source of vacuum While communicating said metering chamber with said; source of liquid to fill said metering chamber, and a third position communicating said metering chamber with the container for transferringthe liquid from said metering'chamber to the container.

2; A filling machine comprising means for engaging'acontainer, means for presenting a container to said container engaging means and for providing a jacketaround the container, a valve operatively associated with said container engaging means, a source of vacuum and a source of liquid each separately communicating with said valve, ametering chamber associated with said valve, and means for operating said valve in steps for'first communicating said jacket and container with-atmosphere while connecting said metering chamber to the source of vacuum, then the vacuumized metering chamber with the source of liquid to introduce liquid into the metering chamber while connecting the container and jacket with the source of vacuum, and then the chamber and container with each other for depositing a predetermined charge of liquid from the metering chamber into the latter.

3. A filling machine comprising a filling head for sealingly engaging a container, means providing a jacket around contain 2:, a valve associated with-said filling head, a source of vacuum'and asource of liquid under pressure greater than atmospheric each separately communicating' with said valve, a metering chamber associated with said valve, and means for operating saidvalve in steps for intermittently communicating the container and jacket with atmosphere while-connecting the metering chamber with said source'of vacuum, then the container and jacket with said'source of vacuum while connecting the metering chamber with the source of liquid to fill the metering chamber with liquid, and'finally the metering chamber with the. container for. transferring a. predetermined charge of liquid from the"metering chamber into the container.

4. In combination with a filling machine provided with a source of vacuum and a source of liquid under pressure, a filling valve comprising a filling head for sealingly engaging a container, means providing a jacket around said container, a metering chamber having a vented portion, a valve connected with said metering chamber and said filling head, a sealed, floating piston in the metering chamber between the vented portion thereof and the valve, means for intermittently moving said valve first into a position for communicating said container and jacket with atmo phere, the valve in said first position also connecting the source of vacuum with the metering chamber to actuate the piston and vacuumize the metering chamber, then into a position for connecting the source of vacuum with the container and jacket While connecting the metering chamher with a source of liquid to operate the piston fill the metering chamher with liquid, and then for communicating the container with the metering chamber to again retract the piston and to transfer the liquid from the metering chaminto said container.

5. In combination with a filling machine provided with a source of vacuum and a source of liquid under pressure greater than a filling valve comprising a filling head for sealingly engaging a container, means for sealingly engaging the filling head and for providing a jacket enclosing the container, said filling head having a by-pass tube communicating with said jacket, a metering chamber provided with a vent in one end thereof, a cool: in said filling head having a bore opening into said chamber opposite the vented end thereof, a sealed, floating piston in said chamber, means for limiting movement of the piston toward the vented end of the chamber to adjust the capacity of said chamber, said cock having a plurality of ports for nor ally venting the lay-pass tube and container to atmosphere while registering said bore and said metering chamber with the source of vacuum, means for turning said cock in steps relative to the filling head for registering said bore and said. metering chamber with the source of liquid to force the piston toward the vent and thereby to introduce a predetermined quantity of liquid into said chamber while registering the container and by-pass tube with said source of vacuum. to equally vacuumize the container and jacket, and for subsequently sealing the vacuumiaed jacket while registering the bore in said cock and said met-ening chamber with the container for transferring said predetermined quantity of liquid from the metering chamber into the container.

6. In a filling machine provided with a source of vacuum and a source or" liquid under pressure greater than atmospheric, a filling valve comprising a filling head for sealingly engaging a container presented thereto, a metering chamber vented to atmosphere, a cock in said filling head having a bore opening to said chamber, a sealed, floating piston in said chamber between the vented portion thereof and said bore, said cock being normally disposed with its bore in registration with said source of vacuum to vacuumize the metering chamber and red ,ce the pressure on one side of the floating piston, the other side of the iston being exposed to atmospheric pressure to force the piston toward the cock, means for intermittently moving the cock relative to the filling head for registering its core with the source of pressurized liquid to transmit the pressure of the liquid to one side of the piston, the other side of the piston being exposed to atmospheric pressure to force the piston toward the vented portion of the chamber and to introduce thereby a quantity of liquid into the chamber while registering the container with the source of vacuum, and then for registering the bore of the cock with the vacuumized container to reduce the pressure on the liquid in the chamber and on one side of the piston, the other side of the piston being exposed to atmospheric pressure to force the piston toward the cock and the liquid from the chamber and boreinto the container.

'7. In a filling machine provided with a source of vacuum and a source or" liquid under pressure, a filling valve comprising a filling head for sea].- ingly engaging a container presented thereto, a metering chamber vented to atmosphere, a cock in said filling head having a bore opening to said chamber, a sealed, floating piston in said chamber between the vented portion thereof and said here, adjustable stop means for limiting movement of said piston away from said cocl: thereby to vary the stroke of the piston and the capacity of the chamber, said cock being normally disposed with its bore in registration with said source of vacuum causing atmospheric pressure to force the piston toward the cock, means for moving the cool: relative to the filling head for registering its bore with the source of liquid to thereby force the piston toward the vented portion of the charm her and into contact with said piston stop means to introduce a metered quantity of liquid into the chamber and bore while registering the container with the source of vacuum, and then for registering the bore of the cock with the vacuumized container whereby atmospheric pressure applied to the piston through the vent forces the piston toward the cock and the metered quantity of liquid from the chamber and bore into the container.

In a filling machine provided with, a source of vacuum and a source of liquid under pressure greater than atmospheric, a filling valve coinprising a filling head for sealingly engaging a container presented thereto, a jacket enclosing the container and sealingly engaging the filling head, said filling head having a by-pass tube 00. municating with said jacket, a metering chamber having a vent in one end thereof, a cock. in said filling head having a pore opening into said chamber opposite the vented end thereof, a sealed, floating piston in said chamber, adjustable piston stop means at the vented end of the chain her for limiting movement of the piston toward the same, said cock having a plurality of ports therein, said cock having a first position for venting the by-pass tube and container to atmosphere while registering said bore with the source of vacuum thereby to reduce the pressure on the cock side of the piston helow atmospheric'for movement of the piston toward the cock, means "for moving said cock within he filling head for registering the bore with the source of liquid to force liquid into the chamber move the piston against said stop for registering the container and lay-pass tube with said source of vacuum to equally vacuumize the container and jacket, and means for again moving cock for subsequently sealing the vacuumized jacket while registering the bore with the container for transferring a predetermined quantity of liquid from the metering chamber into the container.

9. In a filling machine provided with a source of vacuum and a source of liquid under pressure greater than atmospheric, a filling valve comprising" as filling head for sealingly engaging a container. presented thereto, a metering, chamber vented to, atmosphere, acock in said filling, head having abore-opening into-said chamber, a sealed, floating piston in said chamber between. the vented. portion thereof and the bore of said. cock. and. adapted to be actuated by pressure difierentials on opposite. ends thereof, said cock. being normally disposed with its bore in regis trationwith-said source of vacuum causing the pressure. in thechamber. to be reduced. below. atmospheric. pressure to forc the piston toward the cock, means for. intermittently moving the cock. relative to the. filling head for. registering itss bone" with the: source of. pressurized. liquid. causing liquid flowing into said bore. from said source. oi liquid. to, force. the piston. against. at.- mospher-ic. pressure toward the. vented portionv oi the. chamber during registration of the container withthe source of vacuum, andv then for. registering the. bore of the cock with the vacuumized container whereby atmosphericpressure applied to the piston. forces the latter towardthe. cockfor transferring the liquid from the chame her and bore into the vacuumized container.

10.. The combination with a filling machine. of a. filling unit operatively connected to a source. of. vacuum and to a source of liquid, a valve operatively connected to said sources of vacuum and. of. liquid, a metering chamber connected to. saictvalve and vented to atmosphere, a sealed, floating piston in said chamber for sealing said valve relative to atmosphere, said valve having a plurality of ports therein, said valve having a. first position. adapted to position said ports to communicate said chamber and sourcev of. vacuum While a container is presented to said filling unit, said valve having a second position. to communicate said source of vacuum. with. the container while communicating the metering chamber with said source of. liquid said valve having a third position. to communicate with said. metering chamber with the container for transmitting the liquid from the chamber into. the: container, and valve operating means. successively. to: advance said valve from. each position. thereof to the next.

11. The combination with a filling. machine of:- a: filling unit operatively connected to a source otvacuum and to a source of liquid under pressure; greater. than atmospheric, a valve operatively: connected to saidsources. of vacuum and of. liquid, a metering chamber associated. with said. valve and vented to atmosphere, a sealed, floating piston in said metering chamber. for sealing the valve relative to atmospheric pressure, said valve having a plurality of ports adapted to communicate said sourceof vacuum with the metering chamber whereby atmospheric pressure on one side of the piston and thev reduced pressure. onv the. other. side thereof produced by evacuating. the metering chamber causes. the piston therein to move toward thevalve. while a container. is presented to the same, meansior moving: said valve in successive steps for next communicating said source of vacuum with said container while communicating said source of pressurized liquid with the metering chamber whereby the. greater than atmospheric pressure onztheliquid entering the latter causes said piston. to moveaway from said valve, then for communicating said metering chamber with the t6 vacuumized. container whereby atmospheric pressure. on. one side of. the. piston and the. reduced pressure. on the. other side produced by the opening. of; the liquid filled. chamber. to the vacuumized' container deposits a measured. quantity of liquid. into the. container. and adjustable means associatedwith. said metering chamber and. piston. for. limiting, movement. of said piston away from. said. valve for changing the capacity. of

; said. metering chamber to. suit. the capacity of the container. presented to. said valve.

12.. A filling. valve. for high vacuum filling machine comprising, a. sealingcap. adapted. to sealing-ly. engage; acontainer, a seat. formation. in said filling. valve. communicable. with. a. container engagedby. the. sealing. cap, a sourceof. vacuum and a source oi liquideach separately communieating. with. said. seat. formation, a valvev cock supported in. said seat formation, a track on said valve cook, a, metering chamber in communication. with. and supported by said cook, a spring biased; yoke. overlying said cock, eacharm of said yoke. having; a roller thereon adapted to ride on said track for holding. saidcock in juxtaposition in. said seat formation, means for imparting intermittent motion to said cock for advancing. the latter in steps for first. communicating, said. metering. chamber with the source of vacuum. whileventing. the container, then communicating. the metering chamber with said source. of. liquid while connecting said source of vacuumwith th container and then communieating themetering chamber with the container.

13. In a vacuum filling and liquid measuring 7 for containers, the combination of a rotatable. turret for advancing containers to be filled, a-rotatable. head mounted above said turret and movable. therewith, said head having a collapsible measuring, chamber associated therewith, an. exterior surfaceof saidmeasuring chamber being exposed to atmosphere, a supply of liquid under,- pressure greater than atmospheric, means in-said head for sealing off individual containers carried by said turret, means cooperating with said sealing means for providing a jacket around the container, means-associated with said headfor vacuumizingthe measuring chamber, to collapse it, means for. connecting the vacuumizing means to the container and jacket while connecting themeasuring chamber to the source of. liquidunder pressure to expand the measuring chamber and to fill it with a measured quantity ofliquid, and then to connect the measuring chamber and the vacuumized container for discharging, themeasured quantity of liquid from V the measuring chamber into the container.

FRANK W. KRUEGER. WILLIAM on BACK.

Reerences Cited in the file of. this patent UNITED STATES. PA IE NTS 

